Displays

Displays Course Introduction
The course will dive deep into electronic display devices, including liquid crystals, electroluminescent, plasma, organic light emitting diodes, and electrowetting based displays. You'll learn about various design principles, affordances and liabilities, and also a variety of applications in the real world of professional optics.
Course Learning Outcomes
At the end of this course you will be able to…
(1) Select a display technology for a given application (LIDAR, imaging, microscopy etc.)
(2) Design a system around the limitations of a given display technology (ie. addressing)
(3) Design a system that maximizes contract

학위 취득의 첫걸음을 내디뎌 보세요.

100% 온라인

탄력적인 마감일

고급 단계

Hours to complete

완료하는 데 약 9시간 필요

권장: 3 weeks of study, around 2 hours per week...

사용 가능한 언어

영어

자막: 영어

강의 계획 - 이 강좌에서 배울 내용

주

1

Hours to complete

완료하는 데 4시간 필요

Liquid crystal displays

The course will cover the basics of electronic display devices, including liquid crystals, electroluminescent, plasma, organic light emitting diodes, and electrowetting based displays. At the end of this course learners will be able to select a display technology and perform basic design of the display and have a thorough grasp of basic principles that drive display operation...

Electroluminescent Displays

In this module, we will talk about electroluminescent displays. Electroluminescence is the non-thermal generation of light caused by an applied electric field to a material. Displays using this technology have many advantages including fast response, wide viewing angles, high resolution, wide operating temperatures, light weight, and good display qualities. You will learn about fundamentals of this important class of displays and challenges. It's a very exciting topic!...

E-ink, Electrowetting, & Plasma Displays

In this module, you will learn about promising display technologies that include e-ink, electrowetting and plasma displays. While the technology is different than the liquid crystal displays, these techniques have their own advantages in terms of contrast, scaling to large areas and ultralow power consumption. I hope you have as great experience learning about these techniques as I have had in preparing the course material....

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CU-Boulder is a dynamic community of scholars and learners on one of the most spectacular college campuses in the country. As one of 34 U.S. public institutions in the prestigious Association of American Universities (AAU), we have a proud tradition of academic excellence, with five Nobel laureates and more than 50 members of prestigious academic academies....

Active Optical Devices 전문 분야 정보

This Active Optical Devices specialization is designed to help you gain complete understanding of active optical devices by clearly defining and interconnecting the fundamental physical mechanisms, device design principles, and device performance. You will study and gain active experience with light emitting semiconductor devices like light emitting diodes and lasers, nanophotonics, optical detectors, and displays.
Specialization Learning Outcomes:
*Analyze and design semiconductor light sources, and surrounding optical systems
*Analyze and design detection systems for LIDAR, microscopy and cameras
*Analyze and design systems for optical device systems that can adapt to the environment at hand.
*Use lasers and optical electronics in electronic systems through an understanding of the interaction of light and atoms, laser rate equations and noise in photo-detection....